Latest Articles for Electronics

Exploring the role of nonstationary Laguerre-Gaussian states in electron behavior.

Examining how surface anisotropy affects spin wave behavior in thin magnetic films.

Exploring the behavior of surface plasmon-polaritons in graphene with gain and loss.

Exploring the potential of polariton states in thin materials for technology.

Study reveals how voltage and defects affect trilayer graphene's electronic states.

Research on WTe₂ reveals its potential for advanced electronic applications.

Gatemon qubits show promise in enhancing quantum computing through unique materials and structures.

A look into how laser pulses affect magnetization in ferromagnetic materials.

Study of how electrons move in gases under various fields.

Exploring how vibrational resonance enhances weak signals in circuits amid noise.

This study explores magnetic phases in the Ising-Kondo lattice model.

Research reveals WSe2's behavior under magnetic fields, highlighting its electronic properties.

This article explores non-Abelian charges and the measurement of band singularities in materials.

Researchers develop low-noise quantum-dot lasers integrated on silicon for various applications.

Exploring the unique properties and potential of twisted bilayer graphene.

Exploring how 2D materials can improve silicon solar cell performance.

Research reveals exciton behavior in polymer semiconductors for better electronic devices.

X-ray absorption spectroscopy reveals electronic structures of ferrites for improved applications.

An overview of unique properties and potential applications of two-dimensional Weyl semimetals.

Research reveals complex electron behaviors in heavy fermion materials with multiple bands.

Scientists discover boundary-induced bct iron with unique magnetic properties.

A new method combines computer predictions and human expertise to identify better dielectric materials.

A fresh approach improves the study of magnetic metals using advanced simulations.

A time-domain approach offers fresh insights into supercapacitor performance and efficiency.

This article examines how CdAs films react to different magnetic fields.

Investigating benzene molecular junctions for improved electronic and thermoelectric performance.

Combining mesoporous silicon and conductive polymers leads to innovative applications in energy and sensing.

A look into the behavior of excitons in transition-metal dichalcogenides.

Investigating the vibrational properties of layered hybrid materials for electronics.

A look into the uniform electron gas and its significance in quantum mechanics.

A look into the unique properties of ferrites and their applications.

Exploring how quantum paraelectric metals enhance spin transport through unique phonon interactions.

A new model improves hTron simulations, enhancing circuit design efficiency.

Memristors mimic brain function, advancing artificial intelligence and neuromorphic circuits.

This research unveils the behavior of ferroelectric superlattices under varying temperatures.

Ionic liquid crystals offer new prospects in energy storage and advanced materials.

Research investigates the combination of nematicity and superconductivity in materials.

Study of domain wall movement in ferrimagnetic strips reveals insights for spintronic devices.

Exploring advanced materials with unique electronic properties and their potential applications.

Hexagonal materials show promise in combining magnetic and electric properties for modern electronics.